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Starwisp
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== Description == "Starwisp" is a concept for an ultra-low-mass interstellar probe pushed by a microwave beam. It was proposed by scientist and author [[Robert L. Forward]] in 1985,<ref name="Forward1985">{{cite journal| title=Starwisp: an Ultralight Interstellar Probe| journal=American Institute of Aeronautics and Astronautics Journal of Spacecraft and Rockets| volume=22|date=MayโJune 1985| first=Robert| last=Forward|authorlink=Robert L. Forward}}</ref> and further work was published by [[Geoffrey A. Landis]] in 2000.<ref name="Landis2000">Landis, Geoffrey A. "Microwave Pushed Interstellar Sail: Starwisp Revisited" (paper AIAA-2000-3337, presented at the [[AIAA]] 36th Joint Propulsion Conference and Exhibit, Huntsville AL, July 17โ19, 2000).</ref> The proposed device uses [[beam-powered propulsion]] in the form of a high-power microwave [[Antenna (radio)|antenna]] pushing a sail. The probe itself would consist of a mesh of extremely fine carbon wires about 100 m across, with the wires spaced the same distance apart as the 3 mm [[wavelength]] of the microwaves that will be used to push it. Forward proposed that the wires would incorporate [[Nanoscopic scale|nanoscale]] computer circuitry, sensors, microwave power collection systems and microwave [[Transmitter|radio transmitters]] fabricated on the wire surfaces, giving the probe data collection and transmission capability. Being distributed across the entire sail, no "rigging" is needed, as would be the case if the mission electronics were placed in a separate probe that was pulled by the sail. The original Starwisp concept assumed that the microwaves would be efficiently reflected, with the wire mesh surface acting as a [[superconductor]] and nearly perfectly efficient mirror. This assumption is not valid. Landis showed that a grid will absorb a significant fraction of the power incident on it, and therefore cannot stay cool enough to be [[Superconductivity|superconducting]]. The design is thermally limited, hence the use of carbon as the material in Landis's concept. Low mass was the key feature of the Starwisp probe. In Landis's calculations, the mesh has a density of only 100 kg/km<sup>2</sup>, for a total mass of 1 kg, plus a payload of 80 grams. Although the [[Beam divergence|diffraction limit]] severely constrains the range of the transmitting antenna, the probe is designed to have an acceleration of 24 m/s<sup>2</sup>, so that it can reach a significant fraction of the speed of light within a very short distance, before passing out of range. The antenna uses a microwave lens 560 km in diameter, would transmit 56 GW of power, and would accelerate the probe to 10% of the speed of light. The probe would cruise without power for decades until it finally approached the target [[star]], at which point the antenna which launched it would again target its beam on Starwisp. This would be done when the Starwisp was about 80% of the way to its destination, so that the beam and Starwisp would arrive there at the same time. At such extreme long range the antenna would be unable to provide any propulsion, but Starwisp would be able to use its wire sail to collect and convert some of the [[Microwave power transmission|microwave energy into electricity]] to operate its sensors and transmit the data it collects back home. Starwisp would not slow down at the target star, performing a high-speed flyby mission instead. Since the antenna is only required for a few days at Starwisp's launch and again for another few days several decades later to power it while it passes its target, Starwisp probes might be mass-produced and launched by the maser every few days. In this manner, a continuous stream of data could be collected about distant solar systems even though any given Starwisp probe only spends a few days travelling through it. Alternatively, the launching transmitter could be used in the interim to transmit power to Earth for commercial use, as with a [[solar power satellite]].
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